Claims
- 1- A process for binding oxygen on a surface of a carbon fiber which comprises:
irradiating the surface of the fiber with ultraviolet light at a high intensity between about 1 to 40 watts/cm2 to modify the surface which is moving relative to a source of the ultraviolet light in an ozone atmosphere, wherein the wavelengths are between about 160 nanometers and 500 nanometers without higher wavelengths, wherein the irradiated fiber surface contains the bound oxygen from the ozone.
- 2- The process of claim 1 wherein the optical energy is produced by light pulses from a xenon flashlamp energized by pulses of current.
- 3- The process of claims 1 or 2 wherein the fiber is comprised of a polymer.
- 4- The process of claims 1 or 2 wherein the fiber is comprised of a glass.
- 5- The process of claims 1 or 2 wherein the fiber is comprised of a carbon.
- 6- The process of claims 1 or 2 wherein the fiber is continuous and is moved through an annular ring of the ultraviolet light so that the surface of the fiber is exposed to ozone.
- 7- An apparatus for binding a surface of a carbon containing fiber comprising:
(a) an annular light source for irradiating the fiber and, wherein the light source irradiates the fiber at a high intensity between about 1 and 40 watts/cm2 at wavelengths ranging from about 160 to 500 nanometers without higher wavelengths; (b) a flow directing means for providing flowing ozone on the surface of the fiber during the irradiating by the light source; and (c) an electrical power supply operably coupled to power the optical energy source wherein the fiber after irradiating contains bound oxygen from the ozone.
- 8- The apparatus of claim 7 further including:
(a) a hood for supporting the light source and for enshrouding the irradiated surface to capture a substantial amount of any photodecomposed molecules and ozone; and (b) a vacuum system coupled to collect the photodecomposed molecules and ozone captured by the hood for recycle or reuse.
- 9- An apparatus for binding a surface of a carbon containing fiber comprising:
(a) an annular light source constructed to generate ozone between the lamp and fiber surface as a result of flowing air or oxygen on the surface of the fiber during the irradiating by the light source; (b) a flow directing means for providing flowing ozone on the surface of the fiber during the irradiating by the light source; and (c) an electrical power supply operably coupled to power the optical energy source wherein the fiber after irradiating contains bound oxygen from the ozone.
- 10- The apparatus of claim 9 further including:
(a) a hood for supporting the light source and for enshrouding the irradiated surface to capture a substantial amount of any photodecomposed molecules and ozone; and (b) a vacuum system coupled to collect the photodecomposed molecules and ozone captured by the hood for recycle or reuse.
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is a continuation-in-part of application Ser. No. 09/287,978, filed Apr. 7, 1999.
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
09287978 |
Apr 1999 |
US |
Child |
09882974 |
Jun 2001 |
US |